[Nitric oxide as a possible regulator of energy-dependent Ca2+ transport in mitochondria of uterine smooth muscle].

Iu V Danylovych, O. Kolomiiets, H. V. Danylovych, S. Kosterin
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引用次数: 3

Abstract

The influence of the donor and the precursor of NO, namely 100 mM sodium nitroprusside and sodium nitrite on the energo-dependent Ca(2+)-transport in isolated mitochondria from rat myometrium was investigated. Changes in the mitochondrial matrix Ca(2+)-concentration was evaluated by spectrofluorimetry using Ca2+ sensitive probe Fluo-4 AM. Mg(2+)-ATP-dependent Ca(2+)-accumulation on mitochondria in the presence of succinate significantly stimulated by nitric oxide, in particular, 100 microM sodium nitroprusside amplified the transport by 1.6 times relative to its control values. NO effect becomes significant only when the incubation of mitochondria with the compounds was performed. Ca(2+)-accumulation in the presence of sodium nitroprusside effectively suppressed by protonophore (CCCP) and ruthenium red (10 microM). It was concluded that inner mitochondrial membrane Ca(2+)-uniporter stimulated by nitrogen oxide. Ca(2+)-accumulation in mitochondria in the presence of sodium nitroprusside was not sensitive to the action of a specific permeability transition pore inhibitor cyclosporine (5 microM). This data indicates that the role of permeability transition pore is less significant than Ca(2+)-uniporter in the processes of Ca(2+)-transport in mitochondria under the nitric oxide action. Thus, nitric oxide stimulates the energo-dependent Ca(2+)-accumulation by myometrium mitochondria mediated their inner membrane Ca(2+)-uniporter functioning.
[一氧化氮作为子宫平滑肌线粒体中能量依赖性Ca2+运输的可能调节剂]。
研究了一氧化氮供体和一氧化氮前体(100 mM硝普钠和亚硝酸钠)对大鼠肌层离体线粒体能量依赖性钙(2+)转运的影响。采用钙离子敏感探针Fluo-4 AM,荧光光谱法测定线粒体基质Ca(2+)浓度变化。在琥珀酸盐存在的情况下,一氧化氮显著刺激了Mg(2+)- atp依赖性Ca(2+)-在线粒体上的积累,特别是100 μ m硝普钠的转运比对照值增加了1.6倍。只有当线粒体与化合物孵育时,NO效应才变得显著。质子团(CCCP)和钌红(10微米)有效地抑制了硝普钠存在下Ca(2+)的积累。结果表明,氮氧化物刺激线粒体膜内Ca(2+)-转运。硝普钠存在时线粒体中Ca(2+)的积累对特定的通透性过渡孔抑制剂环孢素(5微米)的作用不敏感。这些数据表明,在一氧化氮作用下的线粒体内Ca(2+)转运过程中,通透性过渡孔的作用不如Ca(2+)-单转运体的作用显著。因此,一氧化氮通过肌层线粒体介导其内膜Ca(2+)-单转运体功能刺激能量依赖性Ca(2+)-积累。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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